SIX-PORT SELF-INJECTION-LOCKED RADAR
A six-port SIL radar includes an oscillation element, a transceiver element, a power coupling element and a six-port demodulation element. The six-port demodulation element is utilized to demodulate an oscillation signal from the oscillation element such that the operating frequency of the six-port SIL radar will not be restricted by hardware. Further, the power coupling element is configured to divide the oscillation signal into two signals that have equal power when received by the six-port demodulation element for signal-to-noise ratio optimization.
This invention generally relates to a self-injection-locked (SIL) radar, and more particularly to a six-port SIL radar.
BACKGROUND OF THE INVENTIONTaiwan Patent No. 1493213, entitled “Motion/interference signal detection system and method thereof”, discloses a motion/interference detection system which is a SIL radar. The motion/interference signal detection system is provided to transmit a wireless signal to an object and receive a reflected signal from the object by using a transmitter. The reflected signal is injected into the transmitter such that the motion/interference detection system enters a SIL state to modulate the wireless signal into a frequency-modulated signal, and at the same time, the wireless signal from the transmitter is also received by a receiver of the motion/interference detection system and demodulated to obtain a motion/interference signal of the object.
The object of the present invention is to provide a six-port SIL radar which demodulates signals by using a six-port demodulation element so that the six-port SIL radar can operate at a frequency unrestricted by the mixer and exhibit a substantially enhanced sensitivity.
A six-port SIL radar of the present invention includes an oscillation element, a transceiver element, a power coupling element and a six-port demodulation element. The oscillation element is configured to generate an oscillation signal. The transceiver element is electrically connected to the oscillation element, and configured to transmit the oscillation signal as a transmitted signal to a subject and receive a reflected signal from the subject as a detection signal. The detection signal is configured to be injected into the oscillation element to allow the oscillation element to operate in a self-injection-locked state. The power coupling element is electrically connected to the oscillation element and configured to receive and divide the oscillation signal into a local oscillation signal and a radio frequency signal. The six-port demodulation element is electrically connected to the power coupling element for receiving the local oscillation signal and the radio frequency signal, and configured to demodulate the local oscillation signal and the radio frequency signal to output a demodulated signal. Particularly, the local oscillation signal and the radio frequency signal received by the six-port demodulated element have equal power.
The power coupling element and the six-port demodulation element of the present invention are provided to frequency-demodulate signals to extract the information regarding the movement of the subject such that the operating frequency of the six-port SIL radar will not be limited by demodulation element hardware. Otherwise, for optimizing signal-to-noise ratio of the six-port demodulation element, the power coupling element of the present invention is provided to equal the power of the local oscillation signal and the radio frequency signal received by the six-port demodulation element.
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In the present invention, the power coupling element 130 and the six-port demodulation element 140 are provided to frequency-demodulate signals to extract the information regarding the movement of the subject O, as a result, the operating frequency of the six-port SIL radar 100 will not be restricted by demodulation element hardware. Additionally, the power coupling element 130 of the present invention is provided to allow the six-port demodulation element 140 to receive the local oscillation signal SLO and the radio frequency signal SRF having the same power for signal-to-noise ratio optimization of the six-port demodulation element 140.
The scope of the present invention is only limited by the following claims. Any alternation and modification without departing from the scope and spirit of the present invention will become apparent to those skilled in the art.
Claims
1. A six-port SIL radar, comprising:
- an oscillation element configured to generate an oscillation signal;
- a transceiver element electrically connected to the oscillation element, the transceiver element is configured to transmit the oscillation signal as a transmitted signal to a subject and receive a reflected signal from the subject as a detection signal, wherein the detection signal is configured to be injected into the oscillation element to allow the oscillation element to operate in a self-injection-locked state;
- a power coupling element electrically connected to the oscillation element for receiving the oscillation signal, the power coupling element is configured to divide the oscillation signal into a local oscillation signal and a radio frequency signal; and
- a six-port demodulation element electrically connected to the power coupling element for receiving the local oscillation signal and the radio frequency signal, the six-port demodulation element is configured to demodulate the local oscillation signal and the radio frequency signal to output a demodulated signal, wherein the local oscillation signal and the radio frequency signal received by the six-port demodulation element have the same power.
2. The six-port SIL radar in accordance with claim 1, wherein the oscillation element includes a voltage-controlled oscillator (VCO) and a coupler, the VCO is configured to output the oscillation signal, the coupler is electrically connected to the VCO for receiving the oscillation signal and configured to divide the oscillation signal into a first oscillation signal and a second oscillation signal, the transceiver element and the power coupling element are electrically connected to the coupler, the transceiver element is configured to receive the first oscillation signal from the coupler, the power coupling element is configured to receive the second oscillation signal from the coupler, and the detection signal received by the transceiver element is configured to be delivered to the coupler and coupled to the VCO by the coupler.
3. The six-port SIL radar i accordance with claim 1, wherein the oscillation element includes a voltage-controlled oscillator (VCO) configured to output the oscillation signal, and the transceiver element includes a transmit antenna and a receive antenna, the transmit antenna is electrically connected to the VCO for receiving the oscillation signal and configured to transmit the oscillation signal as the transmitted signal., the receive antenna is electrically connected to the VCO and configured to receive the reflected signal as the detection signal, and the detection signal is configured to injection lock the VCO.
4. The six-port SIL radar in accordance with claim 3, wherein the oscillation element further includes a coupler electrically connected to the VCO and the transmit antenna, the coupler is configured to divide the oscillation signal into a first oscillation signal and a second oscillation signal, the first oscillation signal is configured to be delivered to the transmit antenna, and the second oscillation signal is configured to be delivered to the power coupling element.
5. The six-port SIL radar in accordance with claim 4, wherein the oscillation element further includes a circulator electrically connected to the VCO, the coupler and the receive antenna, the oscillation signal from the VCO is configured to be delivered to the coupler via the circulator, and the detection signal received by the receive antenna is configured to be injected into the VCO via the circulator.
6. The six-port SIL radar in accordance with claim 1, wherein the power coupling element includes a directional coupler and a delay unit, the directional coupler is electrically connected to the oscillation element for receiving the oscillation signal and configured to divide the oscillation signal into a first coupling signal and a second coupling signal, the first coupling signal is configured to be delivered to the six-port demodulation element as the local oscillation signal, the delay unit is electrically connected to the directional coupler for receiving the second coupling signal and configured to time-delay the second coupling signal to the radio frequency signal and deliver the radio frequency signal to the six-port demodulation element.
7. The six-port SIL radar in accordance with claim 6, wherein the second coupling signal outputted from the directional coupler has a power higher than that of the first coupling signal outputted from the directional coupler, and a power difference between the second coupling signal and the first coupling signal is substantially equal to a power attenuation value of the delay unit.
8. The six-port SIL radar in accordance with claim 6, wherein the power coupling element further includes a power amplifier electrically connected to the directional coupler for receiving the second coupling signal, the power amplifier is configured to amplify the second coupling signal as an amplified coupling signal, the amplified coupling signal is configured to be delivered to the delay unit for time delay, and a gain value of the power amplifier is substantially equal to a power attenuation value of the delay unit.
9. The six-port SIL radar in accordance with claim 6, wherein the power coupling element further includes an attenuator electrically connected to the directional coupler for receiving the first coupling signal, the attenuator is configured to attenuate the first coupling signal, and a attenuation value of the attenuator is substantially equal to a power attenuation value of the delay unit.
10. The six-port SIL radar in accordance with claim 1, wherein the six-port demodulation element includes a six-port circuit, a power detect unit and a computing unit, the six-port circuit is electrically connected to the power coupling element for receiving the local oscillation signal and the radio frequency signal and configured to output a plurality of output signals, the power detect unit is electrically connected to the six-port circuit for receiving the output signals and configured to detect a power of each of the output signals, the computing unit is electrically connected to the power detect unit and configured to output the demodulated signal according to the power of each of the output signals.
Type: Application
Filed: Feb 18, 2020
Publication Date: Oct 29, 2020
Inventors: Fu-Kang Wang (Kaohsiung City), Chan-Hung Lee (Kaohsiung City), Pin-Hsun Juan (Kaohsiung City), Sheng-You Tian (Kaohsiung City)
Application Number: 16/793,834